TISSUE ENGINEERING AS AN REGENERATIVE MEDICINE AS ENORMOUS APPLICATION: 3D PRINTING
Sahil Srivastava*, Amit Bind, Aishwarya Soni, Dileep Maurya and Hitesh Upadhyay
ABSTRACT
3D printing is a crucial technology in tissue engineering, as it allows the creation of intricate 3D printed constructions using biocompatible materials, cells, and supporting elements. The cytocompatibility properties of 3D printed structures composed of various synthetic and natural materials are the main topic of this review. The goal of the developing discipline of regenerative medicine is to repair and regenerate damaged tissue’s functioning components. A branch of regenerative medicine called tissue engineering aims to grow whole organs and functional tissue fragments. Biomaterials and living cells can be used to construct native tissue mimics through the use of 3D printing technologies. Regenerative medicine has recently started using 3D bioprinting techniques to produce highly customized tissue models, which are an improvement over traditional tissue engineering techniques. In this article, we examine how 3D bioprinting has advanced tissue engineering by outlining its benefits over alternative tissue engineering techniques as well as how it works. The materials and methods used in bioprinting are also addressed, along with the field’s future directions, obstacles, and clinical applications.
Keywords: 3D Printing, Tissue Engineering, Regenerative Medicine, Bioprinting, Clinical Applications.
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